浙江大学环境与资源学院导师介绍：金崇伟

　　姓名：金崇伟
　　性别：男
　　所在学院：环境与资源学院
　　职称：副教授
 
　　个人简介：
　　1979年生，浙江三门人，浙江大学环境与资源学院植物营养学科副教授，硕导。
　　2003年6月本科毕业于浙江大学应用化学专业；
　　2008年6月获浙江大学植物营养学博士学位，导师郑绍建教授，毕业后留校。
　　曾获浙江省优秀博士学位论文、全国优秀博士学位论文提名奖、浙江省自然科学学术奖三等奖。
　　主要从事植物耐缺铁机理；激素在养分吸收利用中的信号调控作用；重金属元素在食物链中的迁移。
　　主持中国博士后基金一等资助、中国博士后基金特别资助和国家自然科学基金各一项，并参与国家自然科学基金项目多项。
　　迄今以第一作者身份在Plant Physiology、Plant Cell and Environment、Journal of Experimental Botany、Annals of Botany、Chemosphere、Annals of Applied Biology等国内外权威刊物上已发表论文20余篇，其中影响因子5以上3篇，总影响因子累计超过50。

　　招生专业：
　　植物营养学

　　研究方向：
　　植物营养生理与分子生物学、植物营养环境生态学
 

　　研究成果：
　　影响因子>5
　　1．Chen WW, Yang JL, Qin C, Jin CW, Mo JH, Ye T, Zheng SJ. 2010. Nitric oxide acts downstream of auxin to trigger root ferric-chelate reductase activity in response to iron deficiency in Arabidopsis thaliana. Plant Physiology 154:810-819(SCI, IF 6.235)
　　2．Jin CW, Du ST, Chen WW, Li GX, Zhang YS, Zheng SJ. 2009. Elevated carbon dioxide improves plant Fe nutrition through enhancing the Fe-deficiency-induced responses under Fe-limited conditions in tomato. Plant Physiology 150:272-280 (SCI, IF 6.235)
　　3．Jin CW, You GY, Tang CX, Wu P, Zheng SJ. 2007. Iron-deficiency-induced Secretion of Phenolics Facilitates the Reutilization of Root Apoplastic Iron in Red Clover (Trifolium pratense L.). Plant Physiology 144: 278-285. (SCI, IF 6.235)
　　4．Jin CW, He YF, Tang CX, Wu P, Zheng SJ. 2006. Mechanisms of microbial enhanced iron uptake in red clover. Plant, Cell & Environment 29: 888-897 (SCI, IF 5.081)
　　影响因子3-5
　　1．Jin CW, Du ST, Shamsi IR, Luo BF, Lin XY. 2011. NO synthase-generated NO acts downstream of auxin in regulating Fe-deficiency-induced root branching that enhances Fe-deficiency tolerance in tomato plants. Journal of Experimental Botany accepted (SCI IF4.237)
　　2．Jin CW, Li GX, Yu XH, Zheng SJ. 2010. Plant Fe status affects the composition of siderophore-secreting microbes in the rhizosphere. Annals of Botany 105:835-841 (SCI, IF 3.501)
　　3．Jin CW, Du ST, Zhang YS, Lin XY, Tang CX. 2009. Differential regulatory role of nitric oxide in mediating nitrate reductase activity in roots of tomato (Solanum lycocarpum). Annals of Botany 104, 9-17 (SCI, IF 3.501)
　　4．Jin CW, Zheng SJ, He YF, Zhou GD, Zhou ZY. 2005. Lead contamination in tea garden soils and factors affecting its bioavailability. Chemosphere. 59:1151-1159.(SCI, IF 3.253)
　　5．Jin CW, He YF, Zhou GD, Shi JL, Zhang K, Zheng SJ. 2005. Lead contamination in tea leaves and non-edaphic factors affecting it. Chemosphere. 61：726－736.(SCI, IF 3.253)
　　影响因子<3
　　1．Xu FJ, Jin CW, Liu WJ, Zhang YS, Lin XY. 2011. Pretreatment with H2O2 Alleviates Aluminum-induced Oxidative Stress in Wheat Seedlings. Journal of Integrative Plant Biology 53 : 44-53 （SCI, IF 1.395）.
　　2．He XX*, Jin CW*, Li GX, Yu YH, You GY, Zhou XP, Zheng SJ. 2008. Use of the modified viral satellite DNA Vector to silence mineral nutrition-related genes inplants: Silencing of the tomato ferric reductase gene, FRO1, as an example. Science in China Series C-Life Science 51：402-409 (SCI, IF 0.691，共同第一作者)
　　3．Jin　CW, You GY, Zheng SJ. 2008. The iron deficiency-induced phenolics secretion plays multiple important roles in plant iron acquisition underground. Plant Signaling and Behavior. 3(1):60-61
　　4．Jin CW, Chen WW, Meng ZB, Zheng SJ. 2008. The iron-deficiency-induced increase of root branching is important for enhancing ferric chelate reductase activity. Journal of Integrative Plant Biology 50: 1557-1562（SCI, IF 1.395）.
　　5．Jin CW, He XX, Zheng SJ. 2007. The Iron-deficiency Induced Phenolics Accumulation May Involve in Regulation of Fe(III) Chelate Reductase in Red Clover. Plant Signaling and Behavior. 2(5):327-335
　　6．Jin CW, Du ST, Zhang K, Lin XY. 2008. Copper contamination in tea leaves and factors affecting it. Food Chemistry and Toxicity. 46(6): 2054-2061 (SCI, IF 2.114)
　　7．Jin CW, Du ST, Wang Y, Condon J. Lin XY, Zhang YS. 2009. Carbon dioxide enrichment by composting in greenhouses and its effect on vegetable production. Journal of Plant Nutrition and Soil Science-Zeitschrift fur Pflazenernahrung und Bodenkunde 172, 418-424(SCI, IF 1.595)
　　8．Jin CW, Du ST, Zhang YS,Tang CX, Lin XY. 2009. Atmospheric nitric oxide stimulates plant growth and improves the quality of spinach (Spinacia oleracea L.). Annals of Applied Biology 155: 113-120 (SCI, IF 1.734)